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基于同步辐射成像技术的金属材料凝固研究进展

蒋佳乐康永旺罗军王智茂黎刚刘昌奎李楠

材料工程2026，Vol.54Issue(1)：1-12,12.

材料工程2026，Vol.54Issue(1)：1-12,12.DOI:10.11868/j.issn.1001-4381.2025.000077

基于同步辐射成像技术的金属材料凝固研究进展

Research progress in metallic materials solidification based on synchrotron radiation imaging technology

蒋佳乐 ¹康永旺 ²罗军 ³王智茂 ¹黎刚 ⁴刘昌奎 ¹李楠²

作者信息

1. 中国航发北京航空材料研究院,北京 100095
2. 航空材料检测与评价北京市重点实验室,北京 100095
3. 中国航空发动机集团材料检测与评价重点实验室,北京 100095
4. 中国航发北京航空材料研究院先进高温结构材料重点实验室,北京 100095
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摘要

Abstract

Solidification is crucial in the preparation of metal materials.The solidification process directly determines the microstructure and macroscopic properties of metal materials.When a metal is transformed from a liquid to a solid state,factors such as the formation and growth of grains,solidification rate,temperature gradient,and alloy composition lead to different microstructures,ultimately defining the final microstructure of the metal.Variations in these factors not only determine the mechanical properties of the metal but can also cause defects such as grain boundary defects,gas pores,and inclusions,etc.,thereby affecting its overall quality and service performance.Due to its high penetration and high spatiotemporal resolution,synchrotron radiation enables the real-time observation and tracking of microstructural evolution during metal solidification,leading to a deeper understanding of the underlying mechanisms.This paper reviews the latest progress of synchrotron radiation imaging technology in the study of the solidification process of metallic materials at home and abroad,with a focus on its application and research achievements in crystal nucleation and growth,the formation mechanism of solidification defects,and rapid solidification(welding and additive manufacturing).By combining new methods such as phase field simulation and machine learning,researchers have made significant progress in grain refinement mechanisms,the formation laws of pores and hot tearing,and the control of rapid solidification modes.Finally,it is pointed out that improving the temporal and spatial resolution of synchrotron radiation,conducting multi-scale coupling characterization,integrating experiments with numerical simulations,and introducing data-driven intelligent analysis methods are important development directions for in-situ studies of the solidification process in the future.This will provide a more solid theoretical basis and technical support for the design of advanced materials and process optimization.

关键词

凝固/晶体形核/晶体生长/凝固缺陷/同步辐射

Key words

solidification/crystal nucleation/crystal growth/solidification defect/synchrotron radiation

分类

矿业与冶金

引用本文复制引用

蒋佳乐,康永旺,罗军,王智茂,黎刚,刘昌奎,李楠..基于同步辐射成像技术的金属材料凝固研究进展[J].材料工程,2026,54(1):1-12,12.

基金项目

稳定支持项目(2019-363) （2019-363）

材料工程

ISSN：1001-4381

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